windows-nt/Source/XPSP1/NT/base/mvdm/tools/c932/inc/ntwin32.mak

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2020-09-26 03:20:57 -05:00
# =========================================================================
# NTWIN32.MAK - Win32 application master NMAKE definitions file for the
# Microsoft Win32 SDK for Windows NT programming samples
# -------------------------------------------------------------------------
# This files should be included at the top of all MAKEFILEs as follows:
# !include <ntwin32.mak>
# -------------------------------------------------------------------------
# NMAKE Options
#
# Use the table below to determine the additional options for NMAKE to
# generate various application debugging, profiling and performance tuning
# information.
#
# Application Information Type Invoke NMAKE
# ---------------------------- ------------
# For No Debugging Info nmake nodebug=1
# For Working Set Tuner Info nmake tune=1
# For Call Attributed Profiling Info nmake profile=1
#
# Note: Working Set Tuner and Call Attributed Profiling is for available
# for the Intel x86 and Pentium systems.
#
# Note: The three options above are mutually exclusive (you may use only
# one to compile/link the application).
#
# Note: creating the environment variables NODEBUG, TUNE, and PROFILE is an
# alternate method to setting these options via the nmake command line.
#
# Additional NMAKE Options Invoke NMAKE
# ---------------------------- ------------
# For No ANSI NULL Compliance nmake no_ansi=1
# (ANSI NULL is defined as PVOID 0)
#
# =========================================================================
# -------------------------------------------------------------------------
# Get CPU Type - exit if CPU environment variable is not defined
# -------------------------------------------------------------------------
# Intel i386, i486, and Pentium systems
!IF "$(CPU)" == "i386"
CPUTYPE = 1
!ENDIF
# MIPS R4x000 systems
!IF "$(CPU)" == "MIPS"
CPUTYPE = 2
!ENDIF
# Digital Alpha AXP systems
!IF "$(CPU)" == "ALPHA"
CPUTYPE = 3
!ENDIF
!IFNDEF CPUTYPE
!ERROR Must specify CPU environment variable ( CPU=i386, CPU=MIPS, CPU=ALPHA)
!ENDIF
# -------------------------------------------------------------------------
# Platform Dependent Binaries Declarations
#
# If you are using the old MIPS compiler then define the following:
# cc = cc
# cvtobj = mip2coff
# -------------------------------------------------------------------------
# binary declarations for use on Intel i386, i486, and Pentium systems
!IF "$(CPU)" == "i386"
cc = cl
# for compatibility with older-style makefiles
cvtobj = REM !!! CVTOBJ is no longer necessary - please remove !!!
cvtres = REM !!! CVTRES is no longer necessary - please remove !!!
!ENDIF
# binary declarations for use on self hosted MIPS R4x000 systems
!IF "$(CPU)" == "MIPS"
cc = cl
# for compatibility with older-style makefiles
cvtobj = REM !!! CVTOBJ is no longer necessary - please remove !!!
cvtres = REM !!! CVTRES is no longer necessary - please remove !!!
!ENDIF
# binary declarations for use on self hosted Digital Alpha AXP systems
!IF "$(CPU)" == "ALPHA"
cc = claxp
# for compatibility with older-style makefiles
cvtobj = REM !!! CVTOBJ is no longer necessary - please remove !!!
cvtres = REM !!! CVTRES is no longer necessary - please remove !!!
!ENDIF
# binary declarations common to all platforms
rc = rc
hc = hc
link = link
implib = lib
# -------------------------------------------------------------------------
# Platform Dependent Compile Flags - must be specified after $(cc)
#
# Note: Debug switches are on by default for current release
#
# These switches allow for source level debugging with WinDebug for local
# and global variables.
#
# Both compilers now use the same front end - you must still define either
# _X86_, _MIPS_, or _ALPHA_. These have replaced the i386, MIPS, and ALPHA
# definitions which are not ANSI compliant.
#
# Common compiler flags:
# -c - compile without linking
# -W3 - Set warning level to level 3
# -Zi - generate debugging information
# -Od - disable all optimizations
# -Ox - use maximum optimizations
# -Zd - generate only public symbols and line numbers for debugging
#
# i386 specific compiler flags:
# -Gz - stdcall
#
# MS MIPS specific compiler flags:
# none.
#
# *** OLD MIPS ONLY ***
#
# The following definitions are for the old MIPS compiler:
#
# OLD MIPS compiler flags:
# -c - compile without linking
# -std - produce warnings for non-ANSI standard source code
# -g2 - produce a symbol table for debugging
# -O - invoke the global optimizer
# -EL - produce object modules targeted for
# "little-endian" byte ordering
#
# If you are using the old MIPS compiler then define the following:
#
# # OLD MIPS Complile Flags
# !IF 0
# !IF "$(CPU)" == "MIPS"
# cflags = -c -std -o $(*B).obj -EL -DMIPS=1 -D_MIPS_=1
# !IFDEF NODEBUG
# cdebug =
# !ELSE
# cdebug = -g2
# !ENDIF
# !ENDIF
# !ENDIF
#
# -------------------------------------------------------------------------
# declarations common to all compiler options
ccommon = -c -W3
!IF "$(CPU)" == "i386"
cflags = $(ccommon) -D_X86_=1
scall = -Gz
!ELSE
!IF "$(CPU)" == "MIPS"
cflags = $(ccommon) -D_MIPS_=1
!ELSE
!IF "$(CPU)" == "ALPHA"
cflags = $(ccommon) -D_ALPHA_=1
!ENDIF
!ENDIF
scall =
!ENDIF
!IF "$(CPU)" == "i386"
!IFDEF NODEBUG
cdebug = -Ox
!ELSE
!IFDEF PROFILE
cdebug = -Gh -Zd -Ox
!ELSE
!IFDEF TUNE
cdebug = -Gh -Zd -Ox
!ELSE
cdebug = -Z7 -Od
!ENDIF
!ENDIF
!ENDIF
!ELSE
!IFDEF NODEBUG
cdebug = -Ox
!ELSE
cdebug = -Z7 -Od
!ENDIF
!ENDIF
# -------------------------------------------------------------------------
# Target Module & Subsystem Dependent Compile Defined Variables - must be
# specified after $(cc)
#
# The following table indicates the various acceptable combinations of
# the C Run-Time libraries LIBC, LIBCMT, and CRTDLL respect to the creation
# of a EXE and/or DLL target object. The appropriate compiler flag macros
# that should be used for each combination are also listed.
#
# Link EXE Create Exe Link DLL Create DLL
# with Using with Using
# ----------------------------------------------------
# LIBC CVARS None None *
# LIBC CVARS LIBC CVARS
# LIBC CVARS LIBCMT CVARSMT
# LIBCMT CVARSMT None None *
# LIBCMT CVARSMT LIBC CVARS
# LIBCMT CVARSMT LIBCMT CVARSMT
# CRTDLL CVARSDLL None None *
# CRTDLL CVARSDLL LIBC CVARS
# CRTDLL CVARSDLL LIBCMT CVARSMT
# CRTDLL CVARSDLL CRTDLL CVARSDLL *
#
# * - Denotes the Recommended Configuration
#
# When building single-threaded applications you can link your executable
# with either LIBC, LIBCMT, or CRTDLL, although LIBC will provide the best
# performance.
#
# When building multi-threaded applications, either LIBCMT or CRTDLL can
# be used as the C-Runtime library, as both are multi-thread safe.
#
# Note: Any executable which accesses a DLL linked with CRTDLL.LIB must
# also link with CRTDLL.LIB instead of LIBC.LIB or LIBCMT.LIB.
# When using DLLs, it is recommended that all of the modules be
# linked with CRTDLL.LIB.
#
# Note: The macros of the form xDLL are used when linking the object with
# the DLL version of the C Run-Time (that is, CRTDLL.LIB). They are
# not used when the target object is itself a DLL.
#
# -------------------------------------------------------------------------
!IFDEF NO_ANSI
noansi = -DNULL=0
!ENDIF
# for Windows applications that use the C Run-Time libraries
cvars = -DWIN32 $(noansi)
cvarsmt = $(cvars) -D_MT
cvarsdll = $(cvarsmt) -D_DLL
# for compatibility with older-style makefiles
cvarsmtdll = $(cvarsmt) -D_DLL
# for POSIX applications
psxvars = -D_POSIX_
# resource compiler
rcvars = -DWIN32 $(noansi)
# -------------------------------------------------------------------------
# Platform Dependent Link Flags - must be specified after $(link)
#
# Note: $(DLLENTRY) should be appended to each -entry: flag on the link
# line.
#
# Note: When creating a DLL that uses C Run-Time functions it is
# recommended to include the entry point function of the name DllMain
# in the DLL's source code. Also, the MAKEFILE should include the
# -entry:_DllMainCRTStartup$(DLLENTRY) option for the creation of
# this DLL. (The C Run-Time entry point _DllMainCRTStartup in turn
# calls the DLL defined DllMain entry point.)
#
# -------------------------------------------------------------------------
# declarations common to all linker options
lcommon = /NODEFAULTLIB /INCREMENTAL:NO /PDB:NONE
# declarations for use on Intel i386, i486, and Pentium systems
!IF "$(CPU)" == "i386"
DLLENTRY = @12
lflags = $(lcommon) -align:0x1000
!ENDIF
# declarations for use on self hosted MIPS R4x000 systems
!IF "$(CPU)" == "MIPS"
DLLENTRY =
lflags = $(lcommon)
!ENDIF
# declarations for use on self hosted Digital Alpha AXP systems
!IF "$(CPU)" == "ALPHA"
DLLENTRY =
lflags = $(lcommon)
!ENDIF
# -------------------------------------------------------------------------
# Target Module Dependent Link Debug Flags - must be specified after $(link)
#
# These switches allow the inclusion of the necessary symbolic information
# for source level debugging with WinDebug, profiling and/or performance
# tuning.
#
# Note: Debug switches are on by default.
# -------------------------------------------------------------------------
!IF "$(CPU)" == "i386"
!IFDEF NODEBUG
ldebug =
!ELSE
!IFDEF PROFILE
ldebug = -debug:mapped,partial -debugtype:coff
!ELSE
!IFDEF TUNE
ldebug = -debug:mapped,partial -debugtype:coff
!ELSE
ldebug = -debug:full -debugtype:cv
!ENDIF
!ENDIF
!ENDIF
!ELSE
!IFDEF NODEBUG
ldebug =
!ELSE
ldebug = -debug:full -debugtype:cv
!ENDIF
!ENDIF
# for compatibility with older-style makefiles
linkdebug = $(ldebug)
# -------------------------------------------------------------------------
# Subsystem Dependent Link Flags - must be specified after $(link)
#
# These switches allow for source level debugging with WinDebug for local
# and global variables. They also provide the standard application type and
# entry point declarations.
# -------------------------------------------------------------------------
# for Windows applications that use the C Run-Time libraries
conlflags = $(lflags) -subsystem:console -entry:mainCRTStartup
guilflags = $(lflags) -subsystem:windows -entry:WinMainCRTStartup
# for POSIX applications
psxlflags = $(lflags) -subsystem:posix -entry:__PosixProcessStartup
# for compatibility with older-style makefiles
conflags = $(conlflags)
guiflags = $(guilflags)
psxflags = $(psxlflags)
# -------------------------------------------------------------------------
# C Run-Time Target Module Dependent Link Libraries
#
# Below is a table which describes which libraries to use depending on the
# target module type, although the table specifically refers to Graphical
# User Interface apps, the exact same dependencies apply to Console apps.
# That is, you could replace all occurrences of 'GUI' with 'CON' in the
# following:
#
# Desired CRT Libraries Desired CRT Libraries
# Library to link Library to link
# for EXE with EXE for DLL with DLL
# ----------------------------------------------------
# LIBC GUILIBS None None *
# LIBC GUILIBS LIBC GUILIBS
# LIBC GUILIBS LIBCMT GUILIBSMT
# LIBCMT GUILIBSMT None None *
# LIBCMT GUILIBSMT LIBC GUILIBS
# LIBCMT GUILIBSMT LIBCMT GUILIBSMT
# CRTDLL GUILIBSDLL None None *
# CRTDLL GUILIBSDLL LIBC GUILIBS
# CRTDLL GUILIBSDLL LIBCMT GUILIBSMT
# CRTDLL GUILIBSDLL CRTDLL GUILIBSDLL *
#
# * - Recommended Configurations.
#
# Note: Any executable which accesses a DLL linked with CRTDLL.LIB must
# also link with CRTDLL.LIB instead of LIBC.LIB or LIBCMT.LIB.
#
# Note: For POSIX applications, link with $(psxlibs).
#
# -------------------------------------------------------------------------
# optional profiling and tuning libraries
!IF "$(CPU)" == "i386"
!IFDEF PROFILE
optlibs = cap.lib
!ELSE
!IFDEF TUNE
optlibs = wst.lib
!ELSE
optlibs =
!ENDIF
!ENDIF
!ELSE
optlibs =
!ENDIF
# basic subsystem specific libraries, less the C Run-Time
baselibs = kernel32.lib $(optlibs) advapi32.lib
winlibs = $(baselibs) user32.lib gdi32.lib comdlg32.lib winspool.lib
# for Windows applications that use the C Run-Time libraries
conlibs = libc.lib $(baselibs)
conlibsmt = libcmt.lib $(baselibs)
conlibsdll = crtdll.lib $(baselibs)
guilibs = libc.lib $(winlibs)
guilibsmt = libcmt.lib $(winlibs)
guilibsdll = crtdll.lib $(winlibs)
# for OLE2 applications
ole2libs = ole32.lib uuid.lib oleaut32.lib $(guilibs)
ole2libsmt = ole32.lib uuid.lib oleaut32.lib $(guilibsmt)
ole2libsdll = ole32.lib uuid.lib oleaut32.lib $(guilibsdll)
# for POSIX applications
psxlibs = libcpsx.lib psxdll.lib psxrtl.lib